HK1178197B - Use of diether compounds for chemically cleaning textile, leather, or fur goods - Google Patents

Description

Use of diether compounds for chemical cleaning of textiles, leather and fur products

The invention relates to a method for chemically cleaning textile, leather or fur products, in which method the items to be cleaned are brought into contact with a cleaning agent comprising at least one solvent. The invention also relates to the use of a solvent with certain properties and effects in the production of a cleaning agent for the chemical cleaning of textiles, leather and fur products. The invention further relates to a liquid cleaning agent used in the chemical cleaning method of textiles, leather and fur products, which contains a certain proportion of solvent with given properties and efficacies.

Professional cleaning of textiles, leather and fur products is a particular service that is of great commercial interest in modern society. In particular, formal and holiday clothing is usually made of high-quality materials, such as cashmere, wool or silk, or at least partly of leather and fur. These materials swell in water and, if cleaned using conventional wet methods, are partially prone to entanglement. Furthermore, the colour of many materials, although suitable for wet cleaning by itself, suffers from a lower level of wet fastness.

Typically, the care of such articles requires commercial fabric cleaning using a suitable solvent. The general advantage of using solvents for treating fabrics is that natural fibres have only a slight swelling behaviour in organic solvents, so that the risk of entanglement and felting is very low.

The suitability of non-polar solvents, such as aromatic hydrocarbons, light benzenes (lightbenzenes), stoddard solvents (stoddardsvent) and white spirits (whitetispiriit), for fabric cleaning has been well known since the early 19 th century. Thereafter, halogenated hydrocarbons such as Chlorinated Hydrocarbon (CHC) and chlorofluorocarbon (fluorochlorohydro-carbonsefchc) were also used. Of these, FCHC was widely used in the 70 and 80 s, but was prohibited by Montreal protocol substatics ThatDepleteOzoneLayer in 1987.

During this time, halogen-free solvents such as isoparaffin (HBS) and siloxane D5 (decamethylcyclopentasiloxane) have again become recognized in the textile cleaning industry. When using an apparatus in which the solvent preparation is carried out by distillation, reduced pressure distillation has to be used due to the high boiling point range (HBS: 185-210 ℃ C.) or the high boiling point range (siloxane D5: boiling point: 211 ℃ C.) of these solvents, resulting in a corresponding increase in energy costs. To reduce costs, some devices are operated without distillation or with reduced distillation rates during this period, and filter powders or cartridges are used to regenerate the solvent.

One of the latest developments in this field is the use of liquid carbon dioxide for cleaning textiles. The high pressure equipment required to use liquid carbon dioxide is significantly more expensive than conventional scrubbers and so has heretofore hindered the spread of this new technology.

The most common solvent used in commercial textile cleaning worldwide is perchloroethylene (i.e., tetrachloroethylene). Tetrachloroethylene is non-flammable, has a boiling point of 121 ℃, and can be distilled at normal pressure in a cleaning machine. Tetrachloroethylene has excellent dissolution capacity for most different forms of soil and a large proportion of premium garments can be cleaned in tetrachloroethylene according to the international textile care label.

A disadvantage of using tetrachloroethylene is the risk of contamination of the groundwater and the soil. According to hazardous substance regulations (hazardous substances organisnance), tetrachloroethylene is classified as hazardous to health, with a risk value of R40, and is therefore suspected of possibly causing cancer. Therefore, in some eu member countries, the cleaning machines used in supermarkets selling food products cannot use tetrachloroethylene. Furthermore, precautions must be taken to reduce gas emissions due to the risk of tetrachloroethylene vapor permeating through the brick walls. Tetrachloroethylene is banned as a solvent for textile cleaning by many federal states, such as the state of california, from 2020.

The legal status of using, storing and transporting tetrachloroethylene, which is most frequently used for commercial textile cleaning, has led to the need for a suitable alternative solvent for commercial textile care

Halogenated solvents have the disadvantages already mentioned for humans and the environment. But are considered as further alternatives such as isoparaffins, cyclosiloxanes or liquid carbon dioxide solvents are admittedly classified as having a more favourable risk profile than tetrachloroethylene. In practice, however, these solvents are at a disadvantage in terms of cleaning efficiency, especially in the case of very soiled textiles, especially in the case of soiling by pigments and salts. These disadvantages can only be compensated for by an effort to increase spot removal (spotremoval).

It is therefore an object of the present invention to provide a process for cleaning a textile, leather or fur goods, which process is substantially equivalent to or even better than the chemical cleaning of the goods used for textile, leather or fur; meanwhile, the present invention is directed to provide the aforementioned solvent having more advantageous characteristics in terms of ecotoxicology than tetrachloroethylene or other solvents commonly used for chemical cleaning of commercial products for textiles, leather or fur; so as to achieve a safer, lower cost and lower energy consumption in using, storing and transporting the solvent or the liquid detergent containing the solvent.

According to the invention, the above-mentioned object is achieved by using a solvent of the general formula (I):

wherein x is an integer between 1 and 10, R¹，R²，R³And R⁴Independently of one another, selected from:

hydrogen radical

-unsubstituted or substituted, linear or branched C₁-to C₂₂-an alkyl group,

-mono-or polyunsaturated, unsubstituted or substituted, straight-chain or branched C₁-to C₂₂-an alkenyl group,

polyalkylene oxides selected from homopolymers and block copolymers of ethylene oxide and propylene oxide

-C which is unsubstituted or substituted, carbocyclic or heterocyclic₃-to C₆-cycloalkyl radical

-C, mono-or polyunsaturated, unsubstituted or substituted, carbocyclic or heterocyclic₃-to C₆-cycloalkenyl group, and

an aromatic radical of the formula (II)

Wherein n is an integer of 0 to 22, R⁵，R⁶，R⁷，R⁸，R⁹，R¹⁰And R¹¹Independently of each other, selected from:

hydrogen radical

-unsubstituted, or substituted, straight or branched C₁-to C₂₂-an alkyl group,

-mono-or polyunsaturated, unsubstituted or substituted, straight-chain or branched C₁-to C₂₂-an alkenyl group,

polyalkylene oxides selected from homopolymers and block copolymers of ethylene oxide and propylene oxide

-unsubstituted or substituted, carbocyclic or heterocyclic C3-to C6-cycloalkyl

-C of mono-or polyunsaturated, unsubstituted or substituted, carbon or heterocyclic ring₃-to C₆-cycloalkenyl groups.

In a process for the chemical cleaning of textile, leather or fur goods, the goods to be cleaned are brought into contact with a cleaning agent which comprises at least one solvent, wherein at least one solvent is a compound of the general formula (I).

The solvents of the general formula (I) should be formally classified as diethers and can be obtained from conventional synthetic routes giving ether functionality, such as Williamson ether synthesis (Williamson synthesis), ethylene oxide (oxiranes), propylene oxide (oxiranes), tetrahydrofuran (tetrahydrofurans) and the reaction of higher homologues with alcohols. For example, in the case where x ═ 1, the compound of formula (I) can be produced by reacting a carbonyl compound such as an aldehyde or ketone with 2 moles (mol) of an alcohol per carbonyl group. Typically, the reversible reaction is catalyzed by an acid. In order to shift the equilibrium, the alcohol is usually in excess and the water formed by the reaction is also removed from the mixture after the reaction. In order to obtain the purity required as a solvent for use in chemical cleaning, in the case of acid catalysis, the acid catalyst is removed or neutralized to prevent decomposition of the solvent prior to use.

Surprisingly, it has been found that the compounds of the general formula (I) have a cleaning power which is at least comparable to, in part even better than, the cleaning power of tetrachloroethylene and other solvents used in the chemical cleaning of conventional textiles, leather and fur goods. Since many compounds of the general formula (I) are known to the inventors without any classification under the regulations of harmful substances, they are also better than other conventional chemical cleaning solvents for textiles, leather and fur products in terms of ecological and toxicological properties. In particular, many compounds of formula (I) have ecological and toxicological properties superior to those of tetrachloroethylene.

Furthermore, the compounds of the formula (I) can also meet the typical requirements for cleaning solvents for textiles, leather and fur products.

In particular, the solvents of the general formula (I) have good solvent properties against greasy and fatty soils, such as oils, fats and oils, waxes, fatty acids and the like. In addition, it also dissolves pigments and salts from the textile fibers very well and stabilizes the dissolved pigments and salts in the solvent bath.

Many examples of the implementation of the solvents of the general formula (I) can be distilled off easily and without thermal decomposition of the solvent. In certain embodiments, the solvent of formula (I) is immiscible with water and can therefore be readily separated from the aqueous phase when desired (e.g., in a water separator)

Furthermore, the solvents of the general formula (I) have excellent drying properties and are to a considerable extent free from off-flavors. Furthermore, the solvents of the general formula (I) do not lead to a loss of colour and do not have an adverse effect on the dimensional stability of the textiles. Another feature of great importance is that the glues used in textile production are insoluble in the solvents of the general formula (I).

In view of the above advantages, it is advantageous to use a solvent of the general formula (I) in a process for the chemical cleaning of goods for textiles, leather or furs, wherein the goods to be cleaned are brought into contact with the solvent. When a solvent of the general formula (I) is used in a process for chemical cleaning of textiles, leather or fur goods, the solvent may be completely or at least partially substituted with tetrachloroethylene, isoparaffins (HBS) and siloxane D5 or other solvents used for chemical cleaning.

According to the invention, the items to be cleaned (the materials to be cleaned) include, in addition to various textiles, leather and fur goods, garments, such as textiles, leather and/or fur components, various work and protective garments, such as textiles and leather components, curtains, carpets and upholstery, including textiles, leather products and/or fur components.

In this application, the concept of chemical cleaning is to be given a broad interpretation, also including the pre-treatment (spotremoval spot removal) associated with the chemical cleaning of commercial textiles, leather and furs.

In a preferred case, the items to be cleaned are contacted with a cleaning agent in the chemical cleaning machine. Thus, in one embodiment of the invention, the cleaning of textiles, leather and furs is carried out using machines in cleaning machines using cleaning agents with solvents of the general formula (I). Such cleaning machines are typically closed systems in which the solvent is recovered by distillation, absorption or a combination of both.

In the case of chemical cleaning plants using tetrachloroethylene or white spirits for the conversion, in particular in the last 50 s, the cleaning step and the distillation are generally carried out in a cleaning machine, while the drying of the fabric is carried out in a separate drying machine (generally with solvent recovery).

Modern equipment operates under a 'dry-to-dry' technology; in which the material to be cleaned is introduced in a dry state and is removed again in a dry state after the end of the step. The solvent-water mixture condensed in the solvent cooler can again be separated in the water separator into an organic phase and an aqueous phase. The solvent then enters the clean solvent tank in a manner that overflows in the water separator, while the water is discharged from the system as contaminated water and can be subjected to appropriate cleaning to meet emission limits.

The washing procedure can be carried out in a single-tank or double-tank (pre-wash and main wash) manner, or, in the case of working clothes, for example, in a multi-tank manner. In the two-tank or multi-tank mode, the solvent of the general formula (I) according to the invention is brought into contact with the items to be cleaned in the first tank or in the tank following the first tank. Other cleaning baths may contain one or more other solvents used to chemically clean the textile, leather or fur goods. In another way, the solvent of the general formula (I) according to the invention can also be brought into contact with the items to be cleaned in more than one tank or in all the cleaning tanks.

In an alternative cleaning step of the invention, the solvent of the general formula (I) is sprayed onto the items to be cleaned one or more times in a special cleaning apparatus. The method may also include an additional stage in which the articles to be cleaned are immersed in one or more cleaning baths containing a solvent of general formula (I) as hereinbefore described. The method may also comprise a stage of bringing the items to be cleaned into contact with a chemical cleaning solvent of another textile, leather or fur commodity, by means of spraying or dipping in a cleaning bath.

In one embodiment of the invention, the items to be cleaned are dried in the same machine in which they are sprayed or immersed ("dry-to-dry" technique), so that the material to be cleaned is introduced in the dry state and is removed in the dry state after the end of the step.

In the process of the invention, the material to be cleaned may also optionally be sprayed with or may be immersed in an impregnating agent after the end of the cleaning step and before the drying operation.

In one embodiment of the invention, R of the solvent of formula (I)²And R⁴Can be independently selected from the following groups: methyl, ethyl, N-propyl, isopropyl, butyl, isobutyl, sec-butyl, tert-butyl, N-pentyl, isopentyl, neopentyl, cyclopentyl, N-hexyl, isohexyl, cyclohexyl, octyl, isooctyl, 2-ethylhexyl, N-decyl, isotridecyl, phenyl, benzyl, phenethyl, and nonylphenyl.

In a further embodiment of the present invention, the solvent of the general formula (I) is characterized in that

-x is an integer between 1 and 5,

-R¹and R³Each independently selected from hydrogen radicals, unsubstituted or substituted, straight or branched C₁-to C₈-alkyl and C₁-to C₈-is selected from isoalkyl, and

-R²and R⁴Each independently of the others from unsubstituted or substituted, straight-chain or branched C₁-to C₁₃N-alkyl or C₁-to C₁₃-isoalkyl, unsubstituted or substituted, C₅-or C₆-cycloalkyl, phenyl, benzyl, or 2-phenylethyl.

In a further embodiment of the invention, the process is characterized in that, in the solvent of the formula (I),

-x is an integer between 1 and 5,

-R¹and R³Is hydrogen, and

-R²and R⁴Each independently of the others from unsubstituted or substituted, straight-chain or branched n-C₁-to C₈Alkyl and iso-C₁-to C₈-alkyl.

In an embodiment of the invention, R¹，R²，R³，R⁴，R⁵，R⁶，R⁷，R⁸，R⁹，R¹⁰Or R¹¹Wherein one or more of the substituents may be selected from the group consisting of-Cl, -Br, -I, -NO₂，-NR₂-COOR, -C (O) R, -CONHR and-CONR₂Is selected from the group of.

In a particular embodiment of the invention, the solvent of formula (I) is characterized in that:

-x＝1，

-R¹and R³Is H, and

-R²and R⁴Is n-butyl.

In a particular example of this embodiment, the corresponding solvent is a compound of the particular formula (III).

The chemical name is methylene glycol dibutyl ether. The particular solvent of the formula (III) is an example of an embodiment according to the invention having the general formula (I) with a flash point (flash) of > 55 ℃ (PMCC ═ Pensky-martens closed-mouth method). The solvent of the particular formula (III), which is not miscible with water or absorbs no more than 2% by volume of water, is also an example of an embodiment according to the general formula (I) according to the invention.

In proportion to its higher flash point, the solvents of the general formula (I) according to the invention are safer. Therefore, in one embodiment of the invention, solvents of the general formula (I) are used, which have a flash point > 55 ℃ (PMCC). For reasons of transportation, the solvents of the general formula (I) of an embodiment example have a flash point of > 62 ℃ (PMCC).

In some embodiments of the cleaning method according to the invention, the preparation of the cleaning agent or solvent is performed using distillation. In some more specific embodiments, such distillation is carried out under reduced pressure (vacuum distillation). Many of the solvents according to the invention of the general formula (I) have a boiling point below 215 ℃ at 1013 millibars (mbar) which has the advantage that energy consumption is less when distillation is used to prepare the solvent.

In some embodiments of the invention, the cleaning agent also contains a proportion of a cleaning enhancer (or cleaning activator). In some other embodiments, the cleaning enhancer is dosed into the cleaning agent during cleaning, while in other embodiments, the items to be cleaned are contacted with the cleaning enhancer in another manner.

Cleaning enhancers (or cleaning activators) are surfactant formulations that are designed to enhance cleaning. Further functions of the cleaning enhancers include emulsifying the water to improve wet soil removal and dispersing the pigments and salts in the solvent to improve their separation from the fabric fibers and prevent their redeposition. Many cleaning enhancers stabilize the dissolved fine pigment particles in the cleaning tank and protect the material to be cleaned from dusting. The cleaning enhancers may also be anti-corrosion additives, or nonionic, and cationic surfactants, having "easy-to-finish" properties or finishes to improve hand. Many cleaning enhancers provide a hygienic effect for textile care, while others prevent or reduce static electricity in the material to be cleaned during the drying stage, e.g. significantly reduce wool fuzz formation.

In some embodiments of the invention, the cleaning agent comprises a proportion of a cleaning enhancer selected from the group consisting of: anionic surfactants, cationic surfactants, nonionic surfactants, amphoteric surfactants, bactericides, preservatives, hand modifiers, coatings, fragrances, water, preservatives, odor absorbers, dissolution mediators, corrosion inhibitors, deodorants, emulsifiers, finishes, antistatic elements, fluorocarbon resins or combinations of the foregoing.

Anionic surfactants of interest in the present invention include sulfates, sulfonates, carboxylates, phosphates, such as alkyl ester sulfonates, alkyl sulfates, alkyl ester sulfates, alkyl benzene sulfonates, alkyl sulfonates and fatty acids, which, in combination with cations, are useful as cleaning enhancers for the chemical cleaning of textiles, leather and furs by one skilled in the art; the cation can be chosen, for example, from alkali metals or alkaline earth metals, such as lithium, sodium, potassium or ammonia, or ammonium compounds, such as monoethanolamine, diethanolamine, and triethanolamine, for example.

Nonionic surfactants of interest in the present invention include condensates of alkylene oxides, such as ethylene oxide or propylene oxide, with fatty alcohols, the alkyl chains of which may be straight or branched, saturated or unsaturated, as cleaning enhancers for the chemical cleaning of textiles, leather and furs by one skilled in the art. The ethylene oxide condensate having a hydrophobic group is obtained by condensing propylene oxide with propylene glycol, and by condensing propylene oxide with ethylene diamine. Possible nonionic surfactants further include water-soluble amine oxides, water-soluble phosphine oxides having C₁₀-to C₁₈-water-soluble sulfoxides of alkyl groups. More known nonionic surfactants known to one skilled in the art as cleaning enhancers for chemical cleaning of textiles, leather and furs include alkyl and alkenyl oligoglycosides having C₈-C₂₀Fatty acid polyglycol esters or fatty amine polyglycol esters of fatty alkyl groups, alkoxytriglucamides, fatty acid n-alkylglucamides, alkylphosphinic oxides, dialkyl sulfoxides, mixed ethers or mixed formyl groups, protein hydrolysates and condensates of alkylphenols with polyethylene, polypropylene and polybutylene oxides.

Examples of zwitterionic surfactants include alkyl betaines, alkyl amidobetaines, alkyl dimethyl betaines, alkyl dipolyethoxy betaines, aminopropionates, aminoglycinates, and amphoteric imidazolinium salt compounds, which are known to one skilled in the art as cleaning enhancers for chemical cleaning of textiles, leather, and fur.

Cationic surfactants known to one skilled in the art as cleaning enhancers for chemical cleaning of textiles, leather and furs include: unsubstituted or substituted, straight-chain or branched, R¹N(CH₃)₃ ⁺X^-，R¹R²N(CH₃)₃ ⁺X^-，R¹R²R³N(CH₃)⁺X^-Or R¹R²R³R⁴N⁺X^-Quaternary ammonium salts of the formula wherein R¹，R²，R³And R⁴May be alkyl, hydroxyalkyl, phenyl, alkene or aralkyl, where X is a suitable anion known to those skilled in the art.

In some embodiments, the cleaning agent also contains a proportion of a substance suitable for trapping hydrogen proton donors, free hydrogen protons, and/or free carbonyl compounds in the chemical cleaning agent. For example, by adding a basic compound suitable for the above-mentioned purpose, it is possible to stabilize a cleaning agent in which any proton donor present is captured in the neutralization reaction and cannot function in the proton-catalyzed solvolysis reaction.

The above-mentioned substances suitable for capturing hydrogen proton donors, free hydrogen protons, and/or free carbonyl compounds in chemical cleaners can be selected without limitation from alkali metal carbonates, such as sodium or potassium carbonate, and compounds containing one or more free amino groups, such as chitin, urea, guanidine, phenyl-diguanidine carbonate, (poly) aminophenols, and amino group-containing ion exchangers. Compounds containing one or more free amino groups are capable of binding to carbonyl compounds to form Schiff's bases (azomethines). At the same time, these amino compounds act as bases, undergo a neutralization reaction with proton donors and form ammonium compounds. Due to this pH stabilization process, the acid-catalyzed hydrolysis reaction, which may lead to decomposition of the solvent, is prevented or at least significantly limited.

Among the species suitable for capturing hydrogen proton donors, free hydrogen protons, and/or free carbonyl compounds in chemical cleaning agents, it is desirable that they have a boiling point higher than the other species in the cleaning agent and a temperature stability such that they are not distilled away until the chemical cleaning agent is distilled and thus do not contact the material to be cleaned. If these compounds are insoluble in the cleaning agent, they can be added to the cleaning agent stored in the storage tank, in which case they do not come into contact with the substance to be cleaned. In this case, the capture of protons and carbonyl compounds is a heterogeneous reaction and can also be used to cope with non-distillative cleaning processes.

In some embodiments, the cleaning agent also contains a solvent of a composition suitable for cleaning textiles, leather and furs but different from formula (I). In other embodiments, solvents suitable for use in cleaning textiles, leather and furs but different from those of formula (I) are added during the cleaning process. In still other embodiments, the items to be cleaned are contacted in some other way separately during the cleaning process with a solvent suitable for use in the cleaning of textiles, leather and furs but different from the general formula (I).

Other solvents which are suitable for cleaning textiles, leather and furs but which differ from the general formula (I) include all solvents which are used for cleaning textiles, leather and furs but which differ from the general formula (I), for example the solvents mentioned in the introduction of the description, which are conventionally used in chemical cleaning. Among the solvents particularly suitable for use in cleaning textiles, leather and furs but which differ from formula (I) include tetrachloroethylene, aromatic hydrocarbons, light benzenes, Stoddard's solvents, white spirits, chlorinated hydrocarbons, chlorofluorocarbons, isoparaffins (HBS) and siloxane D5, liquid carbon dioxide and combinations of the foregoing.

In another aspect of the invention, the solvents of the general formula (I) mentioned above are used in one or more of the various embodiments described above for producing cleaning agents for chemical cleaning of textiles, leather and fur goods or for producing preparations for the pretreatment (stain removal) of textiles, leather and fur goods. The cleaning agent optionally has one or more of the aforementioned characteristics of the cleaning agent according to the invention.

For example, in some embodiments, the cleaning agent produced accordingly contains, in addition to a proportion of a solvent of the general formula (I), a proportion of a cleaning enhancer and/or a proportion of another solvent which is suitable for chemical cleaning of textile, leather and fur goods but which is different from the solvent of the general formula (I).

In a further aspect of the invention, the use of a liquid cleaning agent in a method for the chemical cleaning of textiles, leather and furs is claimed, wherein in one or more of the different above-described embodiments the cleaning agent contains a proportion of a solvent of the general formula (I), a proportion of a cleaning enhancer and/or a proportion of a further solvent which is suitable for the chemical cleaning of textiles, leather and furs but which is different from the general formula (I), wherein the chemical cleaning operation is preferably carried out in a chemical cleaning machine.

For the purposes of this original description, it should be noted that the features, even if they are described in specific terms that are only associated with certain other features, which are not expressly excluded or that the technical aspects make such combinations impossible or meaningless, can be combined individually or in any combination with other features or groups of features disclosed in this specification for all the features that can be appreciated by a person skilled in the art from the present description, drawings and claims. A full and enabling disclosure of all possible combinations of features has been omitted here, for the sake of brevity and readability only.

Claims (12)

1. Use of a solvent of the general formula (I) as a cleaning agent in a method for the machine-chemical cleaning of textile, leather or fur goods in a cleaning machine:

wherein-x is an integer between 1 and 5,

-R¹and R³Is hydrogen, and

-R²and R⁴Each independently of the otherFrom unsubstituted or substituted, straight-chain or branched n-C₂-to C₈-alkyl or iso-C₂-to C₈-alkyl, if any, substituent R²Or R⁴by-Cl, -Br, -I, -NO₂,-NR₂-COOR, -C (O) R, -CONHR and-CONR₂One or more of them.

2. The use according to claim 1, wherein R is²And R⁴Can be independently selected from the following groups: methyl, ethyl, N-propyl, isopropyl, butyl, isobutyl, sec-butyl, tert-butyl, N-pentyl, isopentyl, neopentyl, cyclopentyl, N-hexyl, isohexyl, cyclohexyl, octyl, isooctyl, and 2-ethylhexyl.

3. Use according to any one of claims 1 to 2, wherein at least one solvent is a compound of formula (III):

4. use according to any one of claims 1 to 2, wherein the solvent has a flash point of greater than 55 ℃ and/or a boiling point of less than 215 ℃ at 1013 millibars (mbar).

5. Use according to any of claims 1 to 2, wherein the cleaning agent also contains a proportion of a cleaning enhancer or the cleaning enhancer is dosed to the cleaning agent during the cleaning process or the item to be cleaned is contacted with the cleaning enhancer during the cleaning process.

6. Use according to any one of claims 1 to 2, wherein the cleaning agent further comprises a substance suitable for the chemical cleaning agent to capture hydrogen proton donors, free hydrogen protons, and/or free carbonyl compounds.

7. Use according to any one of claims 1 to 2, wherein the cleaning agent comprises a proportion of a further solvent suitable for chemical cleaning of textile, leather or fur goods, but different from formula (I), or wherein the further solvent suitable for chemical cleaning of textile, leather or fur goods, but different from formula (I), is dosed to the cleaning agent during cleaning, or wherein the goods to be cleaned are contacted with the further solvent suitable for chemical cleaning of textile, leather or fur goods, but different from formula (I), during cleaning.

8. Use of a solvent of the general formula (I) or of the specific formula (III) having the features of any of claims 1 to 4 for the manufacture of a cleaning agent for the chemical cleaning of textile, leather or fur goods, characterized in that the cleaning agent contains a proportion of a solvent of the general formula (I) or of the specific formula (III), a proportion of a cleaning enhancer, and/or a proportion of a substance suitable for the chemical cleaning agent to trap hydrogen proton donors, free hydrogen protons and/or free carbonyl compounds, and/or another solvent suitable for the cleaning of textile, leather or fur goods, but different from the solvent of the formula (I).

9. The use of claim 8, wherein the wash enhancer is selected from the group consisting of: anionic surfactants, cationic surfactants, nonionic surfactants, amphoteric surfactants, bactericides, preservatives, hand modifiers, finishes, fragrances, water, odor absorbers, antistatic components, dissolution mediators, corrosion inhibitors, emulsifiers, finishes, fluorocarbon resins, or combinations of the foregoing.

10. The use according to claim 8, wherein the cleaning enhancer is a deodorant.

11. Use according to claim 8 or 9, wherein the other solvents suitable for cleaning textiles, leather, furs but different from the solvent of formula (I) are selected from tetrachloroethylene, aromatic hydrocarbons, light benzenes, stokes' solvents, white spirits, Chlorinated Hydrocarbons (CHC), chlorofluorocarbons (FCHC), isoparaffins (HBS) and siloxanes D5 (decamethylcyclopentasiloxane), and combinations of the foregoing.

12. The use according to claim 4, wherein the solvent has a flash point of 62 ℃ or higher.